RU2439862C2 - Heating element - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention offers heating element made in the form of tube with length of working area limited by 2(1÷n) axial grooves, where "n" is an integer number; tube is crossed in turn by these grooves from one edge till junction near the other edge, moreover one of groves cuts tube along the whole length and heating element is made of material belonging to high-temperature group: tungsten, niobium, tantalum.

EFFECT: improvement in reliability of heating element.

2 cl, 1 dwg

Description

The invention relates to the field of electrothermia, in particular to electric heating elements.

Known heating elements made in the form of wire and tape heaters placed in a tubular shell filled with a filler, for example magnesium oxide (Low-temperature electric heating. / Ed. By A.D. Svenchansky. M .: Energy, 1978, p.40, rice .10, where sketches of such elements are given, and on p.68, Fig.24 shows options for their implementation).

The disadvantages of such heating elements are the limited area of application at a temperature of 650 ÷ 1400 ° C, insufficient heat transfer (A.D. Svenchansky. Electric industrial furnaces. Part 1. “Electric resistance furnaces”, SEI, 1958, p.103, 260 , 263).

Closest to the proposed features is the heating element, made in the form of a rod or pipe, the length of the working part of which is limited by radial and soy grooves to the bridge at the end, and normally the second axial groove is made to the axial groove, one part of which cuts the heating element to the bridge at the radial groove, and the other part is the entire length, RF patent No. 2357382, cl. HB05 3/42, 05/14/2007

The implementation of such a heating element for heating a relatively large working volume becomes problematic due to its current-voltage parameters.

The dimensions of the heater and electrical parameters with the growth of the working volume are crucial.

The objective of the invention is to increase the reliability of the heating element, in particular when it is made from a material of the high-temperature group, at a temperature exceeding 2000 ° C.

The problem is solved by performing the working part of the heating element on a tubular billet with the simultaneous formation of current leads.

The drawing shows a General view of the heating element and its cross sections.

The heating element comprises a working part 1 with jumpers 2, axial grooves 3 and current leads 4.

Such a heating element is made of a tubular billet of material of a high temperature group, for example niobium. In this case, axial grooves are alternately formed on the workpiece by the electric spark method from one and the other end to the jumpers 2.

This heating element has two options for the implementation of current leads 4: one when placing them in the plane of the workpiece and the second when implementing one through groove along the entire length of the workpiece.

In the first case, the current flows along two parallel branches, and in the second, successively along each branch.

The heating element may be milled.

An example of a heating element

Niobium pipe diameter 32.0 mm Wall thickness 2.0 mm Working length 350.0 mm Diameter of the working part 30.0 mm Width of end bridges 7.5 mm Diameter of end bridges 32.0 mm Axial Groove Width 1.5 mm The number of branches of the working part 8 Section of the working branch 10.0 mm The total length of the heating element 400.0 mm Current circuit length 3200.0 mm Resistivity niobium at 2100 ° C 0.568 Ohm · m / mm ² Current circuit resistance 1.82 ohm Voltage 182.0 V Current 100.0 A Power 18.2 kW Current density 10.0 A / mm ²

Claims (2)

1. A heating element containing a working part, jumpers and current leads, characterized in that it is made in the form of a pipe with a length of the working part limited by 2 (1 ÷ n) axial grooves, where "n" is an integer by which the pipe is cut in turn with the end of one to the jumper to the end of the other, and one of the axial grooves cuts the pipe to its full length. 2. The heating element according to claim 1, characterized in that it is made of material of a high temperature group: tungsten, molybdenum, niobium, tantalum.